Warwick School of Engineering Postgraduate Programmes 2022/23

P O S TG R A D U AT E STUDY 2022/23

E NG I N E E RIN G

CONTENTS Introducing Warwick School of Engineering

04-05

Electrical Power Engineering

12-13

Advanced Mechanical Engineering

06-07

Humanitarian Engineering

14-15

Biomedical Engineering

08-09

Postgraduate Research Courses

16-18

Communications and Information Engineering

10-11

Student Community

19

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OVERALL AMONG UK I N T E G R AT E D E N G I N E E R I N G D E PA R T M E N T S I N T H E L AT E S T R E S E A R C H EXCELLENCE FRAMEWORK

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32,000

MEDIAN SALARY FOR ALL W A R W I C K P O S T G R A D U AT E S WHOSE MAIN EMPLOYMENT W A S F U L L -T I M E W O R K IN THE UK (Graduate Outcomes survey of 2018/19 graduates, carried out approximately 15 months after completion*)

*Contains HESA data: Copyright Higher Education Statistics Agency Limited 2020. HESA cannot accept responsibility for any inferences or conclusions derived by third parties from its data.

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M O S T TA R G E T E D UNIVERSITY BY UK’S T O P 1 0 0 G R A D U AT E EMPLOYERS (The Graduate Market in 2022, High Fliers Research Ltd)

(REF, 2014)

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25

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ONE OF THE WORLD’S TOP 25 MOST I N T E R N AT I O N A L UNIVERSITIES (The Times Higher Education 2022)

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INTRODUCING WARWICK SCHOOL OF ENGINEERING WARWICK SCHOOL OF ENGINEERING IS ONE OF THE LEADING ENGINEERING SCHOOLS IN THE UK. W E A R E C O N S I S T E N T LY I N T H E T O P T E N O F A L L U K L E A G U E TA B L E S AND OFFER AN EXCITING RANGE OF U N D E R G R A D U AT E , P O S TG R A D U AT E TA U G H T A N D R E S E A R C H D E G R E E S .

P O S TG R A D U AT E TA U G H T COURSES We offer five specialist MSc courses including mechanical, biomedical, communications, electrical power and humanitarian engineering. Our degrees develop enterprising, outward-looking graduates who are equipped to meet society’s newest and pressing challenges and employer demands for advanced skills and knowledge. You will gain fundamental specialist knowledge through studying core modules, tailor the course to your interests by choosing from a range of exciting optional modules and put your knowledge into practice through an individual or group project. Our courses will provide you with versatility and depth of knowledge to set you apart as you embark on your chosen career path or pursue PhD study.

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P O S TG R A D U AT E RESEARCH COURSES We offer PhD, MPhil and MSc by Research degrees, and Centres for Doctoral Training in Future Mobile Technologies; and Modelling of Heterogeneous Systems. Our position as a general engineering department strengthens our capabilities, enabling multi-disciplinary, collaborative research. Our researchers work with colleagues from across Warwick and beyond to provide innovative solutions to real-world problems. We also work closely with Warwick’s Global Research Priorities: warwick.ac.uk/research

COMMUNITY The academics who teach our students work at the forefront of their subjects and are making internationally significant advances. You’ll also be supported by your fellow students, building meaningful friendships that you’ll find become valuable professional networks.

WO R L D - C L A S S FAC I L I T I E S Students have access to an impressive range of research facilities, workshops and laboratories with cutting-edge equipment. This includes our Engineering Build Space, a design studio with manufacturing facilities, where you can see your ideas and innovations come to life, whether they are academic or personal projects.

HEART OF INDUSTRY We work closely with industry experts to develop your work-place skills from day one and ensure you’re prepared for life after university. Our physical location in Coventry places you close to many of the UK’s biggest names in engineering and students benefit from our strong connections with industrial partners such as Jaguar Land Rover, Arup, Tata Steel and Rolls-Royce.

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ADVANCED MECHANICAL ENGINEERING MSc Advanced Mechanical Engineering 1 year full time | Course code: H341 Accrediting institutions:

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FOCUS ON THE KEY SKILLS REQUIRED BY THE MODERN MECHANICAL ENGINEER. Our MSc Advanced Mechanical Engineering allows students to develop the versatility and depth of knowledge to deal with new and unusual challenges across a wide range of disciplines, within engineering and beyond. Teaching is underpinned by research in automotive systems, biomedical engineering, solid and fluid mechanics, electrical and thermal energy systems, energy conversion/storage and sustainable cities. Core modules will provide advanced knowledge in fundamental topics of mechanical engineering and will also allow you to develop skills required to execute engineering projects involving multiple stakeholders.

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Optional modules allow you to select complementary topics that are of particular interest to you. You will also complete an individual research project: an in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor. Previous graduates have gone on the work for companies such as Arup, Rolls-Royce and Siemens. Others have chosen to continue their studies by doing a PhD at Warwick or elsewhere.

ENTRY REQUIREMENTS

A minimum of a 2.ii undergraduate degree (or equivalent) in a relevant branch of engineering or science Maths and English language requirements also apply: see warwick.ac.uk/ame for more information. MODULES

The MSc degree (180 credits) comprises: • Eight taught modules (15 credits each) • Research project (60 credits)

Core modules • Computational Fluid Dynamics • Precision Engineering and Microsystems • Dynamic Analysis of Mechanical Systems • Heat Transfer Theory and Design • Mechanical Engineering Group Design • Research Methods and Professional Skills Examples of optional modules • • • •

Fluid Mechanics for Mechanical Engineers Finite Element Methods Renewable Energy Biomechanics

RESEARCH PROJECT

An in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor. "This course has offered me an equally challenging and rewarding opportunity to develop my teamwork and software skills, and mechanical engineering knowledge. I have also been impressed with the university's dynamic response to the pandemic, which has provided me with security in my learning, in a time of great uncertainty.”

FURTHER INFORMATION

warwick.ac.uk/engineering We are constantly evolving our courses to keep up with developments in engineering and requirements for industry, so it is important you check our website for the most up-to-date information on module availability.

Jack, MSc Advanced Mechanical Engineering student

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BIOMEDICAL ENGINEERING MSc Biomedical Engineering 1 year full time | Course code: H800 Accrediting institutions:

D E V E L O P S TAT E - O F -T H E - A R T K N O W L E D G E A N D U N D E R S TA N D I N G O F B I O M E D I C A L E N G I N E E R I N G AT P O S TG R A D U AT E L E V E L . Warwick School of Engineering has a unique systems approach to biomedical research and teaching. Our MSc Biomedical Engineering delivers advanced modules developed across disciplines incorporating biomedical signal processing, medical imaging, predictive modelling, medical device design, electronics, communication, software, hardware, systems thinking and machine intelligence. In addition you will be assigned an in-depth individual project, which will allow you to work closely with an academic on state-of-the art biomedical

engineering research and innovation, often linked with industry, and with cutting-edge areas of application across the biomedical field. The course prepares students for careers in advanced biomedical engineering. This includes biomedical engineering research institutions, medical device manufacturers, medical device regulators, and clearly hospitals, where biomedical engineers oversee medical device clinical trials, purchasing and maintenance as responsible for clinical engineering services.

"The Biomedical MSc at Warwick has given me the opportunity to explore a wide range of topics within the field, as well as getting hands on experience, applying the knowledge gained in lectures. As well as finding this very interesting, it gave me a competitive advantage when looking for a job." Charlotte, MSc in Biomedical Engineering graduate

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ENTRY REQUIREMENTS

A minimum of a 2.ii undergraduate degree (or equivalent) in a relevant branch of engineering or science Maths and English language requirements also apply: see warwick.ac.uk/bioe for more information. MODULES

The MSc degree (180 credits) comprises: • Eight taught modules (15 credits each) • Research project (60 credits) Core modules

• Research and Professional Skills in Biomedical and Clinical Engineering • Biomedical Imaging and Medical Devices • Medical Device: Design, Maintenance and Assessment • Biomedical Systems Modelling Examples of optional modules

• Biomechanics • Biomedical Signal Processing • Systems Modelling and Control • Affective Computing • Signal Processing • Computational Intelligence in Biomedical Engineering • Biomaterials, Tissue Engineering and Regenerative Medicine • Computational Synthetic and Systems Biology RESEARCH PROJECT

An in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor. FURTHER INFORMATION warwick.ac.uk/engineering

We are constantly evolving our courses to keep up with developments in engineering and requirements for industry, so it is important you check our website for the most up-todate information on module availability.

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C O M M U N I C AT I O N S A N D I N F O R M AT I O N E N G I N E E R I N G MSc Communications and Information Engineering 1 year full time | Course code: H641 Accrediting institutions:

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RECEIVE COMPREHENSIVE TRAINING IN THE ESSENTIAL ELEMENTS OF MODERN C O M M U N I C AT I O N A N D I N F O R M AT I O N ENGINEERING. Our MSc Communications and Information Engineering allows students to gain an understanding of the information- theoretic underpinnings alongside the physical-layer aspects of optical and radio transmission. You’ll cover developments in radio network architectures and deployment and have the opportunity to study digital multimedia storage and communication technologies, data analytics and data mining in terms of algorithms and goals in real-world problems. Cross-discipline options from the Department of Computer Science offer key insights into approaches for dealing with the explosion in data collected in modern society (‘big data’).

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After graduation you’ll be well equipped for employment opportunities in modern information and communication engineering, which is currently undergoing a revolution. Recent graduates from the course occupy positions in a variety of industries in the UK and worldwide, including core network provision, logistics, software support and data communication equipment/services, as well as banking, oil and gas, and fashion. The course is also the perfect platform for progression to a research degree.

ENTRY REQUIREMENTS

A minimum of a 2.ii undergraduate degree (or equivalent) in a relevant branch of engineering or science Maths and English language requirements also apply: see warwick.ac.uk/cie for more information MODULES

The MSc degree (180 credits) comprises: • Eight taught modules (15 credits each) • Research project (60 credits)

Core modules • Advanced Wireless Systems and Networks • Information Theory and Coding • Radiowave Propagation and Wireless Communications Theory • Optical Communication Systems • Communication and Information Engineering Design Project • Research Methods and Professional Skills Examples of optional modules • • • • • •

Signal Processing Microwave Engineering and RF Circuits ASICs, MEMS and Smart Devices Data Mining Foundations of Data Analytics Image and Video Analysis

RESEARCH PROJECT "Communications and Information Engineering is an exciting degree course that provides training in both recent advances and classical theories of communications and information technologies. You will have a chance to do individual and group projects with our highly reputed staff in the frontiers of communications and information engineering, such as 5G/6G, broadband networks, UAV communications, Internet of Things, and cyber security, to prepare yourself for a career in the telecommunications industry and beyond."

An in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor. FURTHER INFORMATION warwick.ac.uk/engineering We are constantly evolving our courses to keep up with developments in engineering and requirements for industry, so it is important you check our website for the most up-to-date information on module availability.

Dr Yunfei Chen, Course Coordinator

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ELECTRICAL POWER ENGINEERING MSc Electrical Power Engineering 1 year full time | Course code: H643 Accrediting institutions:

GAIN THE KNOWLEDGE AND SKILLS REQUIRED FOR A CAREER IN POWER ENGINEERING. Qualified electrical engineers are desperately needed by the power industry. There is also a severe shortage of power engineering expertise in other sectors, such as government bodies and finance organizations, where a detailed knowledge of energy supply and demand is increasingly important as societies develop and adapt to pressing environmental and economic constraints, dwindling reserves of fossil fuels and the emergence of new energy technologies. As the mitigation of global warming becomes ever more important, the electrification of transportation and heat

as well as the accelerated penetration of renewable energy into the power grid have become main objectives in Electrical Power Engineering. The technologies studied in this MSc are the underpinning innovation forces in various industries including the electric transportation industry, aviation industry and power generation and transmission industries including renewable energy. This course will give you the knowledge and skills required for a career in electrical power engineering and is an opportunity to update your knowledge with the latest developments in renewable energy and smart grids.

"Our Electrical Power Engineering MSc course is excellently tailored to train future engineers in this area. It uniquely considers electrical power conversion and control at devices, converters and systems levels, developing corresponding knowledge and practical skills. The MSc projects are industry oriented. This opens broad perspectives for the graduates to continue their career in power electronic devices design and manufacturing, in power electronic converters application, including renewable energy and electrical vehicles, in electricity distribution and transmission companies, and in power stations.” Dr Oleh Kiselychnyk, Course Coordinator

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ENTRY REQUIREMENTS

A minimum of a 2.ii undergraduate degree (or equivalent) in a relevant branch of engineering or science Maths and English language requirements also apply: see warwick.ac.uk/epe for more information. MODULES

The MSc degree (180 credits) comprises: • Eight taught modules (15 credits each) • Research project (60 credits) Core modules • • • • •

Advanced Power Electronic Converters and Devices Control of Electrical Drives Operation and Control of Power Systems Electrical Power Engineering Design Group Project Research Methods and Professional Skills

Examples of optional modules • • • • • • • • • •

Power Electronic Converters and Devices* Power Systems and Electrical Machines* Systems Modelling and Control Heat Transfer Theory and Design Mathematical and Computer Modelling Advanced Robotics Batteries and Fuel Cells Optical Communication Systems Renewable Energy Signal Processing

* Please note that these modules are core for students without equivalent background experience.

RESEARCH PROJECT

An in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor. FURTHER INFORMATION warwick.ac.uk/engineering

We are constantly evolving our courses to keep up with developments in engineering and requirements for industry, so it is important you check our website for the most up-todate information on module availability.

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H U M A N I TA R I A N E N G I N E E R I N G MSc Humanitarian Engineering 1 year full time or 2 years part time | Course code: H1C1

Accrediting institutions:

MSc Humanitarian Engineering (with Sustainability) 1 year full time or 2 years part time | Course code: H1C2 MSc Humanitarian Engineering (with Management) 1 year full time or 2 years part time | Course code: H1C3

J O I N U S TO P L AY YO U R PA R T I N T H E S O LU T I O N O F G LO B A L H U M A N I TA R I A N C H A L L E N G E S . Humanitarian Engineering is the use of science and engineering to invent, create, design, develop, or improve technologies that promote the wellbeing of communities facing grand humanitarian challenges. The course spans a broad range of disciplines and is ideal for those looking to explore all the professional and disciplinary facets of humanitarian challenges. You will become a highly trained professional with a broad perspective, equipped with skills dedicated to tackle all aspects of real-world humanitarian problems. The increasing number of global humanitarian challenges urges us to rethink the role we play. This interdisciplinary hands-on approach will enable you to learn the reality of what it’s like to work within social, economic, legal, ethical and other constraints, and how innovative thinking is required to solve acute real-world problems.

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Postgraduate Award, Certificate and Diploma options are specially designed to support professional development for those already working in the field or interested in humanitarian engineering. Humanitarian Engineering graduates will be well-placed to work with governments (e.g. central banks, ministries of finance, rural development, and education). You'll gain skills that are sought after by multilateral development institutions (e.g. World Bank, IMF, United Nations), NGOs and the private sector (e.g. professional services, manufacturing, and investment banking). You may also decide to pursue PhD studies. PGCert, PGDip and PGA options are also available

ENTRY REQUIREMENTS

A minimum of a 2:i undergraduate degree (or equivalent), ideally in Engineering, Science, Social Sciences, Natural Sciences, Humanities, Business or Medical Sciences, although we will consider graduates of all disciplines. In certain instances we will also consider applicants with a degree result of 2:ii (or equivalent). English language requirements also apply: see warwick.ac.uk/humeng for more information. MODULES

The MSc degree (180 credits) comprises: • Nine taught modules (15 credits each) • Project (45 credits)

Core modules • Humanitarian Engineering: Ethics, Theory and Practices • An Introduction to Global Health • Water and Environmental Management • One Humanity; Shared Responsibility • Urban Resilience, Disasters and Data • Renewable Energy dditional core module - MSc Humanitarian Engineering A • Humanitarian Law dditional specialist core modules - MSc Humanitarian Engineering A (with Sustainability) • Sustainable Cities and Infrastructures for Emergencies • Industrial Ecology and Sustainable Engineering Additional specialist core modules - MSc Humanitarian Engineering (with Management) • Sustainable Operations and Humanitarian Supply Chains • Mindful Project Management Examples of optional modules "Msc Humanitarian Engineering and Sustainability is an exciting and unique course, combining theory and practice. What I loved the most is its diversity, not only of the course but also of the cohort, offering a holistic and multi-disciplinary perspective. This master was the opportunity for me to redirect my energy engineering expertise to a humanitarian cause aligning with my values and work for international development institutions such as the United Nations.” Ibtihelle, MSc Humanitarian Engineering with Sustainability student

• • • • • •

Sustainable Cities and Infrastructures for Emergencies Sustainable Operations and Humanitarian Supply Chains Mindful Project Management Industrial Ecology and Sustainable Engineering Design Thinking for Social Impact Challenges to Global Food Security

PROJECT An individual or group project proposed by academics, industry partners or students. FURTHER INFORMATION warwick.ac.uk/engineering We are constantly evolving our courses to keep up with developments in engineering and requirements for industry, so it is important you check our website for the most up-to-date information on module availability. 1 5

P O S T G R A D U AT E RESEARCH COURSES WARWICK SCHOOL OF ENGINEERING HAS A LARGE P O STG R A D U AT E R E S E A R C H COMMUNITY WITH OVER 1 5 0 S T U D E N T S U N D E R TA K I N G P O STG R A D U AT E R E S E A R C H DEGREES AND 55 RESEARCH P O S T- D O C T O R A T E S T A F F.

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Our research broadly falls within these four streams:

C I V I L A N D E N V I R O N M E N TA L ENGINEERING • G round Engineering • Structural Engineering • Water Engineering

M E C H A N I C A L , M AT E R I A L S AND PROCESS ENGINEERING • • • •

luid Dynamics and Multiscale Modelling F Measurement and Machines Reaction and Materials Engineering Sustainable Thermal Energy Technologies

ELECTRICAL AND ELECTRONIC ENGINEERING • C onnected Systems • Electrical Power • Sensors and Devices

SY S T E M S A N D I N F O R M AT I O N ENGINEERING • Biomedical and Biological Systems • Information Engineering • Systems Modelling and Control

OUR POSITION AS A GENERAL E N G I N E E R I N G D E PA R T M E N T S T R E N GT H E N S O U R C A PA B I L I T I E S , E N A B L I N G M U LT I - D I S C I P L I N A R Y, C O L L A B O R AT I V E R E S E A R C H . Our researchers work with colleagues from across Warwick and beyond to provide innovative solutions to real-world problems. Partners include universities, SMEs and large businesses, NHS Trusts and charitable trusts. We work closely with Warwick’s Global Research Priorities in Energy, Health, Innovative Manufacturing and Future Materials and Sustainable Cities.

WE OFFER THE FOLLOWING RESEARCH DEGREES: • D octor of Philosophy (PhD) 3-4 years full-time or 5-7 years part-time • M aster of Philosophy (MPhil) 2 years full-time or 3-4 years part-time • M Sc by Research (MScR) 1 year full-time or 2 years part-time

WE ALSO HAVE TWO CENTRES FOR DOCTORAL TRAINING IN: • F uture Mobile Technologies 4 years full-time or 7 years part-time

• M odelling of Heterogeneous Systems 4 years full-time or 7 years part-time We hold regular events and an annual Postgraduate Symposium at which you can showcase your work and achievements. More information about our research degrees is available on our website: warwick.ac.uk/engineering

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A RECENT EXAMPLE OF CUTTING-EDGE RESEARCH WITHIN THE BIOMEDICAL ENGINEERING GROUP IS THE DEVELOPMENT OF ADVANCED B R A I N - CO M P U T E R I N T E R FAC I N G (BCI) ALGORITHMS. Through BCI one can establish communication with those severely lacking the ability to move or talk. These Artificial Intelligence based algorithms, developed in the Brain and Behaviour Lab of Professor Christopher James, Director of the Biomedical Engineering Institute, are being researched as part of a larger activity in the neural engineering field. Dr Duncan Billson and his team designed patented ultra-thin electrostatic modules which can be use in the thinnest and lightest of speakers. Most recently, this technology was incorporated into the design of the Sonoma Model One headphones, maximising quality in a number of key areas such as frequency balance and response, exact reproduction, and audio clarity. This technology is being incorporated into the most innovative and streamlined in-car audio systems.

Professor Jennifer Wen leads Warwick FIRE, a multi-disciplinary research laboratory for fundamental and applied research in fire, explosions, and other safety-related reactive and non-reactive flows. Hydrogen is a zero-emissions fuel that is seen as a viable alternative to fossil fuels and will play a key role in national and international policies on greenhouse gas reduction. However, it has a wider flammability range, potentially causing damage to infrastructure, injury and death. Professor Wen has devised models that address physical effects and consequence analysis for a range of accidental release scenarios, which are critical to the safe design and operation of facilities involving flammable gases/liquids. The team’s work is critical in the move to a more cleaner and safer environment. Dr Jonathan Pearson and Dr Soroush Abolfathi are part of the Warwick Water Lab within the Civil and Environmental Stream. In the context of climate change, it’s known that the intensity and duration of extreme climatic events will rise in the future. This can lead to catastrophic floods in coastal regions, which usually host dense urban population and major infrastructures. Warwick Water’s research provides important information on the spatial distribution of overtopping hazards behind coastal defences, and how retrofitting of existing infrastructures can enhance their climate resilience and reduce the extent of the hazard zone behind the seawalls.

O U R AC A D E M I C A N D R E S E A R C H STA F F W O R K W I T H PA R T N E R O R G A N I S AT I O N S T O C O N D U C T E N Q U I R Y- D R I V E N , F U N DA M E N TA L A N D P I O N E E R I N G R E S E A R C H TO M A K E T H E WORLD A BETTER PLACE. 1 8

STUDENT COMMUNITY Our Campus is home to students and staff from many different backgrounds and countries. This inclusive and cosmopolitan atmosphere gives Warwick its vibrancy and characteristic ‘buzz.’ We value your individuality and provide an environment where you can be yourself and form lifelong friendships.

THERE ARE A NUMBER OF ENGINEERINGR E L AT E D S T U D E N T S O C I E T I E S :

Warwick Students’ Union (SU) supports over 300 student societies and sports clubs so you’ll have many opportunities to meet people, learn valuable skills and try new things. The SU runs a packed programme of events including gigs, karaoke, open-mic nights and pub quizzes. warwicksu.com

• Engineers without Borders is affiliated to national charity EWB UK, a movement that inspires, enables and influences global responsibility through engineering. F:ewbwarwick

• The Engineering Society is an award winning student-run hub for Warwick engineers to network, socialise, learn and make the most of their University life. warwickengineers.co.uk • Warwick Women in Engineering and Science is focussed on promoting and creating a diverse and inclusive STEM industry. warwickwes.co.uk

• Warwick Racing is a student run racing team who design and build single seat race cars for participation at international competitions. warwick-racing.co.uk

• Warwick Moto is a student run racing team who aim to design and build an electric motorcycle to compete against teams from across the world. warwick.ac.uk/warwick-moto • Warwick Boring recently qualified as one of 12 finalists in Elon Musk’s ‘Not-a-Boring’ Competition 2021. F:warwickboring Warwick Arts Centre is one of the largest multi-artform venues in the UK and hosts many arts and cultural activities. warwickartscentre.co.uk The new Sport and Wellness Hub is packed with fantastic facilities including a 230 station gym, fitness spaces, swimming pool, climbing centre, squash courts and multi-purpose sports halls. warwick.ac.uk/sport The PG Hub is a dedicated space for postgraduates, where you can access support, work collaboratively, and attend regular events and workshops. warwick.ac.uk/services/library/pghub

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H O W T O A P P LY

Applications for postgraduate courses are made via the University of Warwick application portal: warwick.ac.uk/postgraduate Those interested in applying for a research degree should look at our website to learn more about research expertise in the School of Engineering: warwick.ac.uk/eng. You should discuss your proposed area of research with a supervisor prior to making an application. If you are made and accept an offer, and meet all conditions we will confirm your place and look forward to warmly welcoming you at the start of your life here at Warwick.

OVERSEAS APPLICANTS

A C C O M M O DAT I O N

Warwick Accommodation has over 7000 rooms across a range of well-managed, self-catering residences, as well as a limited number of couple and family residences. warwick.ac.uk/accommodation

SCHOLARSHIPS

Warwick is privileged to attract high-fliers and seeks to recognise and promote achievement, talent, ideas, hard work and diversity, including through offering scholarships where possible. For more details see our website: warwick.ac.uk/eng/ postgraduate/funding

DISCOVER MORE

At Warwick we welcome applications from across the globe, and have dedicated teams available to advise and support, as well as a global network of Agents and Representatives. For more information on applying from your country see: warwick.ac.uk/io

To find out more about the University, including opportunities to visit and engage with your department of choice, visit warwick.ac.uk/ postgraduate/visits

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The course information was accurate at the time of publication (March 2022). Our course and module content and schedule is continually reviewed and updated to reflect the latest research expertise at Warwick, so it is therefore very important that you check the relevant course website for the latest information before you apply and when you accept an offer. For full terms and conditions, please visit warwick.ac.uk/pgtermsandconditions